The Advanced Encryption Standard (AES) has been lately accepted as the symmetric cryptography standard for confidential data transmission. However, the natural and malicious injected faults reduce its reliability and may cause confidential information leakage. In this paper, we study concurrent fault detection schemes for reaching a reliable AES architecture. Specifically, we propose low-cost structure-independent fault detection schemes for the AES encryption and decryption. We have obtained new formulations for the fault detection of SubBytes and inverse SubBytes using the relation between the input and the output of the S-box and the inverse S-box. The proposed schemes are independent of the way the S-box and the inverse S-box are constr...
Concurrent fault detection for a hardware implementation of the Advanced Encryption Standard (AES) i...
Since standardization in 2001, the Advanced Encryption Standard has been the subject of many researc...
In this paper, the authors present parity-based fault detection architecture of the S-box for design...
The Advanced Encryption Standard (AES) has been lately accepted as the symmetric cryptography standa...
The Advanced Encryption Standard, which is used extensively for secure communications, has been acce...
The faults that accidently or maliciously occur in the hardware implementations of the Advanced Encr...
The use of an appropriate fault detection scheme for hardware implementation of the Advanced Encrypt...
Fault detection schemes for the Advanced Encryption Standard are aimed at detecting the internal and...
Abstract — Fault attacks are powerful and efficient cryptanalysis techniques to find the secret key ...
In this paper, we present a lightweight concurrent fault detection scheme for the AES. The selection...
The high level of security and the fast hardware and software implementations of the Advanced Encryp...
The goal of the Advanced Encryption Standard (AES) is to achieve secure communication. The use of AE...
Concurrent fault detection for a hardware implementation of the Advanced Encryption Standard (AES) i...
Since standardization in 2001, the Advanced Encryption Standard has been the subject of many researc...
In this paper, the authors present parity-based fault detection architecture of the S-box for design...
The Advanced Encryption Standard (AES) has been lately accepted as the symmetric cryptography standa...
The Advanced Encryption Standard, which is used extensively for secure communications, has been acce...
The faults that accidently or maliciously occur in the hardware implementations of the Advanced Encr...
The use of an appropriate fault detection scheme for hardware implementation of the Advanced Encrypt...
Fault detection schemes for the Advanced Encryption Standard are aimed at detecting the internal and...
Abstract — Fault attacks are powerful and efficient cryptanalysis techniques to find the secret key ...
In this paper, we present a lightweight concurrent fault detection scheme for the AES. The selection...
The high level of security and the fast hardware and software implementations of the Advanced Encryp...
The goal of the Advanced Encryption Standard (AES) is to achieve secure communication. The use of AE...
Concurrent fault detection for a hardware implementation of the Advanced Encryption Standard (AES) i...
Since standardization in 2001, the Advanced Encryption Standard has been the subject of many researc...
In this paper, the authors present parity-based fault detection architecture of the S-box for design...